CN105974317A

CN105974317A - Remaining battery life prediction device and battery pack

Info

Publication number: CN105974317A
Application number: CN201610138301.XA
Authority: CN
Inventors: 今泉荣龟
Original assignee: Seiko Instruments Inc
Current assignee: Seiko Instruments Inc
Priority date: 2015-03-13
Filing date: 2016-03-11
Publication date: 2016-09-28
Anticipated expiration: 2036-03-11
Also published as: TWI669521B; JP2016171716A; US20160266211A1; CN105974317B; US10024924B2; KR20160110221A; TW201643457A

Abstract

Provided is a low-cost battery pack capable of predicting a remaining battery life of a rechargeable battery with more accuracy while being capable of dealing with a variation in battery characteristics. In a remaining battery life prediction device, a constant current source configured to cause a constant current to flow through a battery as a load current is provided, battery voltages before and after the constant current as the load current is caused to flow through the battery are measured at a plurality of time points, and a battery internal resistance is calculated based on a change over time of the battery voltage.

Description

Battery allowance prediction means and set of cells

Technical field

The present invention relates to battery management system, particularly relate to the battery allowance prediction means in Li ion charging pond etc..

Background technology

Rechargable battery, headed by portable equipment, is used in a lot of device, thus the battery management system of management discharge and recharge is must Need.Particularly need when equipment operation more correctly to know the duration of runs, use battery allowance prediction means for this.

The set of cells possessing existing battery allowance prediction means is shown at Fig. 5.Battery allowance prediction means 20 possesses: enter The CPU 21 of row signal processing computing；The RAM 22 used when signal processing computing；For detection with level translator 26 The ADC 23 of the cell voltage after the cell voltage of 1 unit in convert charging pond 6；For detection at the electricity detecting rechargable battery 6 The electric current of stream reads the ADC 24 of the voltage that resistance 10 produces；And keep the non-volatile of performance data etc. of battery to deposit in advance Reservoir 25.Battery allowance prediction means 20 according to the voltage of rechargable battery 6 and with coulomb enumerator by utilizing electric current to read resistance 10 The dislocation charge amount etc. that the current value of the rechargable battery 6 of measurement is obtained, obtains battery allowance.The prediction of high-precision surplus needs charging The voltage in pond 6 and the high-precision measurement of electric current.

Prior art literature

Patent documentation

Patent documentation 1: No. 6789026 description of U.S. Patent No..

Summary of the invention

The problem that invention is to be solved

Existing battery allowance prediction means is using the internal resistance of cell in advance as internal resistance of cell model preparation, and existing can not be corresponding immediately The problem of the deviation of battery behavior.

It addition, in order to obtain voltage drop-out voltage from the internal resistance of cell, it is necessary to carry out the measurement of battery consumption electric current, need for this High accuracy and the big electric current of electric current allowance is wanted to read resistance.

Low cost is provided and the set of cells of high-precision forecast of battery allowance in pond can be charged.

For solving the scheme of problem

In order to solve above-mentioned problem, the battery allowance prediction means of the present invention uses such as following structure.

A kind of battery allowance prediction means, is configured to the first voltage detection department being provided with measuring cell voltage；Read stream The electric current of the load current of overload reads resistance；Measure the second voltage detection department that electric current reads the voltage of resistance；Based on electricity Cell voltage and electric current read the calculation control unit of the voltage prediction calculating battery allowance of resistance；And battery is selected as load Property ground flow through the constant-current source of constant current, calculation control unit at least measures more than 3 somes the electricity before and after making constant current flow through battery Cell voltage, and calculate the internal resistance of cell based on the cell voltage measured, thus predict the surplus of described battery.

Invention effect

According to the present invention, owing to can directly measure the internal resistance of cell, can corresponding battery behavior deviation, low one-tenth it is possible to provide This and can more correctly be charged pond battery allowance prediction set of cells.

Accompanying drawing explanation

Fig. 1 is the block diagram of the set of cells of the battery allowance prediction means possessing present embodiment.

Fig. 2 is the circuit diagram of an example of the equivalent circuit illustrating battery.

Fig. 3 is the chart of the dependent example illustrating the open-circuit voltage of rechargable battery and charged state.

Fig. 4 is other examples of the block diagram of the set of cells of the battery allowance prediction means possessing present embodiment.

Fig. 5 is the block diagram of the set of cells possessing existing battery allowance prediction means.

Detailed description of the invention

The set of cells of the battery allowance prediction means possessing present embodiment includes: battery allowance prediction means 1；Rechargable battery 6；The MOSFET 9 of charge and discharge control；Electric current reads resistance 10；And charge-discharge control circuit 16.Battery allowance prediction means 1 possesses: voltage detection department 11；Calculation control unit 17；Voltage detection department 12；Constant-current source 4；And current source controls switch 5.

The set of cells of present embodiment connects as described below.

Battery allowance prediction means 1 is connected to the two ends of rechargable battery 6.Electric current reads resistance 10 and is located at the negative pole of rechargable battery 6 Between terminal and MOSFET 9.Charge-discharge control circuit 16 is connected to the two ends of rechargable battery 6, and lead-out terminal is with MOSFET 9 even Connect.Connect to have to outside terminal and become the application system of load 8.Voltage detection department 11 connects at input terminal rechargable battery 6, defeated Go out terminal to be connected with calculation control unit 17.Voltage detection department 12 connects the two ends having electric current to read resistance 10 at input terminal, defeated Go out terminal to be connected with calculation control unit 17.Constant-current source 4 and current source control switch 5 and are located at the positive terminal of rechargable battery 6.

Voltage detection department 11 measures the cell voltage Vbat of rechargable battery 6.Voltage detection department 12 detects the consumption electricity to load 8 The electric current that stream carries out measuring reads the voltage at the two ends of resistance 10.Calculation control unit 17 is based on cell voltage Vbat and consumes electric current Prediction battery allowance.Constant-current source 4 makes the known constant current of the internal resistance for measuring battery flow through.

Fig. 2 is the circuit diagram of an example of the equivalent circuit illustrating rechargable battery 6.Rechargable battery 6 is set to by voltage source 18 He Internal resistance equivalent-circuit model 7 is constituted.The internal resistance equivalent-circuit model of general rechargable battery is with by the first resistance being connected in series And second resistance and to second resistor coupled in parallel connect capacitor constitute circuit be unit circuit, be connected in series this unit multiple The structure of circuit.If wanting more correctly to approximate the internal resistance of battery with equivalent circuit, then can increase the progression of this unit circuit, Therefore calculate and complicate.The internal resistance equivalent-circuit model 7 of the rechargable battery 6 shown in Fig. 2 is the circuit structure simplified, but as using In the internal resistance equivalent-circuit model of battery allowance prediction, extremely there is practicality.In the present embodiment, based on shown in Fig. 2 The internal resistance equivalent-circuit model 7 of rechargable battery 6 illustrates.

If the electric current that consumes of load 8 is set to Isys and the electric current of constant-current source 4 is set to Idi, obtain electric current Idi and fill Battery 6 connect in the case of the cell voltage Vbat(t of rechargable battery 6) and battery open circuit voltage Vocv(t) time change, then Represented by formula 1.

。

Additionally, formula 1 is to set constant-current source 4 at moment t=t₀Connect, i.e. at t ＜ t₀Time Idi=0, at t >=t₀Time Idi ＞ 0, τ The situation of ≡ Cp Rb.

At period t ＜ t_o, rechargable battery 6 electric current that consumes is the electric current Isys of load 8.Cell voltage in the case of Gai Vbat becomes the voltage because of the internal resistance of cell 7 and electric current Isys after battery open circuit voltage Vocv voltage declines.Falling quantity of voltages Represented by-(Ra+Rb) Isys, battery open circuit voltage now be set to Vocv(t), cell voltage Vbat(t) become formula 2.

。

At moment t >=t₀, increasing the voltage decline that the electric current Idi of constant-current source 4 causes, drop-out voltage becomes formula 3.

。

If constant-current source 4 will be added front and just additional after cell voltage be set to Vbat(t₀-δ), Vbat(t₀ + δ), represent the most as described below.

。

Think the constant-current source 4 time after just additional is set to shorter in the case of the change of battery open circuit voltage Vocv Time less, resistance value Ra of the first resistance of the internal resistance of cell 7 is represented by formula 7, it is possible to from variable quantity and the perseverance of cell voltage Vbat The electric current Idi in stream source 4 obtains.

。

It addition, the cell voltage Vbat at 2 points of moment t=T+to and t=nT+to can be by formula 8 and formula 9 table Show.

。

Analyticity solves formula 8 and formula 9 such that it is able to obtain 2 variablees, Rb, Cp of the internal resistance of cell 7.That is, by measurement electricity The time change of cell voltage Vbat, it is possible to obtain resistance value Ra in internal resistance equivalent-circuit model 7 and Rb, capability value Cp.

Additionally, in order to obtain the internal resistance of cell 7 from above-mentioned formula, it is to be appreciated that battery open circuit voltage Vocv.Battery open circuit voltage Vocv has stronger relevant to charged state SOC of rechargable battery 6.Fig. 3 is to illustrate battery open circuit voltage Vocv and charged state The chart of a dependent example of SOC.Maximum voltage when the charging that this Vmax is rechargable battery 6, Vmin is for advise in advance The desired lower voltage limit of fixed rechargable battery 6.Qmx is the charging charge required for the cell voltage Vmin full charge to Vmax Amount.Set the charging charge amount in a certain moment of rechargable battery 6 as Qc in the case of, charged state SOC now is specified by formula 10.

。

If the charged state before rechargable battery 6 will being added constant current Idi is set to Soco, rechargable battery 6 is filled the most now The quantity of electric charge Qco of electricity is represented by formula 11.

。

If the elapsed time after constant current Idi is additional is n T(n is integer), the change of the quantity of electric charge that rechargable battery 6 is electrically charged Qcms becomes formula 12.

。

Charged state Soc(n T now) represented by formula 13.

。

The open-circuit voltage Vocv(n T of rechargable battery 6 now) can based on the state-of-charge value obtained by above-mentioned formula from The dependency of the battery open circuit voltage Vocv shown in Fig. 3 and charged state is obtained.

Additionally, in the present embodiment, illustrate electric current reads the example that resistance 10 is located at the negative side of rechargable battery 6, But the side of the positive electrode being arranged on rechargable battery 6 as shown in Figure 4 also plays same effect.

As described above, according to the battery allowance prediction means of the present invention, can directly measure the internal resistance of cell 7, It is thus possible to make the internal resistance of cell 7 of reality be reflected in battery allowance prediction at once, more correct battery allowance prediction can be carried out.

Additionally, be set to arrange voltage detection department in each of voltage detection department 11 and 12, but can also by time Share voltage measurement timing between, thus only carry out at a voltage detection department.

It addition, be set to be controlled switch 5 by current source to carry out the conduction and cut-off control of constant-current source 4, but it is known to pass through Easily realize to constant-current source 4 self additional sleep function etc..

It addition, the electric current Isys of load 8 is alternatively Isys=0 certainly.

Label declaration

1 battery allowance prediction means

4 constant-current sources

5 current sources control switch

6 rechargable batteries

7 internal resistance equivalent-circuit models

10 electric currents read resistance

11,12 voltage detection department

16 charge-discharge control circuits

17 calculation control unit

18 voltage sources.

Claims

1. a battery allowance prediction means, measures the cell voltage of battery and predicts the surplus of battery, it is characterised in that tool Standby:

Measure the first voltage detection department of described cell voltage；

The electric current reading the load current flowing through load reads resistance；

Measure the second voltage detection department that described electric current reads the voltage of resistance；And

The calculation control unit of the voltage prediction calculating battery allowance of resistance is read based on described cell voltage and described electric current,

Arrange and described battery flow through the constant-current source of constant current as carried selective,

In described calculation control unit, more than 3 points, at least measure the cell voltage before and after making described constant current flow through described battery, And cell voltage of based on described mensuration calculates the internal resistance of cell, thus predict the surplus of described battery.

2. battery allowance prediction means as claimed in claim 1, it is characterised in that

Described first voltage detection department and described second voltage detection department are made up of a voltage detection department.

3. a set of cells, it is characterised in that possess:

The described battery being connected in series between first and second outside terminal that load connects and MOSFET；

It is connected to the two ends of described battery and monitors the state of described battery and control the charge-discharge control circuit of described MOSFET； And

Battery allowance described in claim 1 or 2 prediction of the two ends being connected to described battery the surplus predicting described battery Device.